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Course Criteria
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4.00 Credits
This first course in industrial controls is applications oriented and includes on-off type open- and closed-loop control systems, and analog based systems. Major topics include relay and programmable controller based systems. Preparation for Course P: ECET 157, MA 154. Cr. 4. Hours Class 3, Lab. 2.
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4.00 Credits
A study of analog communications that includes transmission lines and propagation, signal spectra, elements of noise, RF amplifiers, oscillators, AM and FM systems, phase modulation, transmitter and receiver circuits. PSPICE and electronic workbench are incorporated in the course. Preparation for Course P: 204, MA 227 or consent of instructor. Cr. 4. Hours Class 3, Lab. 2-3,
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4.00 Credits
A course emphasizing applications of microcomputers to dedicated hardware functions. A high-level language is used with emphasis on programming handheld computers. Some coverage of microprocessor architecture and troubleshooting is included. Preparation for Course P: 205 or equivalent, and 264 or equivalent. Cr. 4. Hours Class 3, Lab. 2-3,
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4.00 Credits
This is an advanced course in network analysis that stresses network theorems and solutions of time- and frequency-domain problems. Transform circuit and signal analysis using Laplace and Fourier techniques are developed, culminating in active filter design applications. Software techniques, such as MATLAB(r) and LabView (tm), to solve mathematical problems are employed. Preparation for Course P: ECET 152 or 207 and MA 228. Cr. 4. Hours Class 3, Lab. 2-3.
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4.00 Credits
Introduction to the characteristics of power semiconductor devices, diode rectifiers, thyristor, commutation techniques, controlled rectifiers, AC voltage controllers, choppers, inverters, and motor drives. Preparation for Course P: 231. Cr. 4. Hours Class 3, Lab. 2,
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4.00 Credits
A study of the generation and transmission of electrical energy. Includes techniques used by electric utilities for the protection of generating equipment and transmission lines, an introduction to the economic considerations of power plant operation, three-winding transformers, and methods of solving unbalanced three-phase systems. Preparation for Course P: 231. Cr. 4. Hours Class 3, Lab. 2-3,
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3.00 - 4.00 Credits
Basic system techniques with emphasis on digital ASIC theory. Computer-aided engineering is strongly emphasized along with system considerations such as criteria for device selection, testability, and vendor selection. Preparation for Course C: 205 and 264. Cr. 3-4. Hours Class 3, Lab. 0-2,
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3.00 Credits
Economic analysis. Interdisciplinary, project-oriented, technological and nontechnological decision process. Students with and without mathematical backgrounds work together to analyze inherent project design problems, both closed and open-ended, including the effects of public policy. Identification of real-world need to serve as project for second course, ECET 448 Project Design Synthesis. Preparation for Course P: junior standing. Cr. 3.
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4.00 Credits
A survey of data communication and networking techniques, protocols, and standards. Topics include OSI mode, TCP/IP protocols and applications, signals, encoding and modulating, transmission of data and interfaces, transmission media, multiplexing, error detection and correction, data link controls and protocols, switching techniques, local area networks, wide area networks, and other well-known networks services including integrated services digital network (ISDN), X.25 (packet switching), frame relay (virtual-circuit), asynchronous transfer mode (ATM), and synchronous optical network (SONET) Preparation for Course P: ECET?205 or CS 271. Cr. 4. Hours Class 3, Lab. 2-3,
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4.00 Credits
Architecture, instruction set, and hardware and software development tools associated with a fixed-point general purpose DSP VLSI processor are studied. Fundamental principles associated with the processing of discrete time signals are introduced. Common applications such as waveform generation, FIR and IIR digital filtering, and DFT and FFT based spectral analysis and filtering are implemented. Preparation for Course P: ECET 264 and 307. Cr. 4. Hours Class 3, Lab. 2-3.
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